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Heat Transfer

Heat Transfer. How does the energy move from a hotter to a colder object? Three mechanisms Conduction Convection Radiation. Conduction. Stir your hot soup with a metal spoon Pretty soon you need a pot holder because the end of the spoon you are holding gets hot

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Heat Transfer

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  1. Heat Transfer How does the energy move from a hotter to a colder object? Three mechanisms Conduction Convection Radiation

  2. Conduction Stir your hot soup with a metal spoon Pretty soon you need a pot holder because the end of the spoon you are holding gets hot This is heat transfer by conduction Energy travels up the spoon from the end in the hot soup to the end in your hand

  3. Conduction We sense the movement of energy by the increasing temperature This means the atoms and molecules have higher average kinetic energy Primarily occurs by the movement of electrons in the material The more easily the electrons can move, the better the conduction

  4. Conduction Metals have some electrons that are very loosely bound to the atoms in the material These electrons can move easily and can rapidly pick up additional kinetic energy Metals are good conductors Wood and plastic don’t have loosely bound electrons, so they are poor conductors

  5. Conduction

  6. Conduction Air is a poor thermal conductor If you stand in the sun on a cold winter day and are shielded from the wind, you stay pretty warm Snow is a poor conductor, while water is better Makes igloos a useful as a house

  7. Convection A phenomenon in fluids Instead of having energy moved by successive collisions of electrons, atoms and molecules, the fluid itself is set into motion called a current These moving fluid currents are convection

  8. Convection

  9. Convection When the radiator heats the air, it becomes less dense and rises Cool air moves in to replace the air that rose This generates the air flow So radiators don’t need a fan to stir the air and to distribute heat throughout a room The rising air cools until its density matches that of the surrounding air

  10. Convection We take advantage of the cooling that occurs during an expansion We make refrigerators and air conditioners operate by forcing gas under pressure through a small hole and expanding it into an empty space

  11. Convection Explains why breezes come from the ocean in the day and from the land at night

  12. Radiation Energy carried by electromagnetic waves Study waves later in detail Light, microwaves, radio waves, x-rays Wavelength is related to vibration frequency

  13. Radiation

  14. Radiation Every object is emitting electromagnetic waves regardless of temperature Things we can see from their own radiation are very hot to have energy emitted in the visible region of the spectrum Most things emit primarily in the infrared Night vision goggles, etc.

  15. Radiation Things also absorb radiation If they didn’t, they would run out of energy to emit Good emitters are also good absorbers Equilibrium established between emission and absorption When something can’t equilibrate, it gets hotter or colder

  16. Radiation Interior of a car on a sunny day Sunlight comes in as visible light Seats and interior are much cooler so they radiate in the infrared instead of visible Glass in the windows blocks infrared so energy can’t get out Car interior heats up!

  17. Radiation A good absorber reflects very little energy Think about dark pavement A poor absorber reflects a lot of energy Think about snow that doesn’t melt in sunshine even though 1400 watts/meter2 are hitting it

  18. Radiation At night, objects receive no input energy from the sun But, they are warmer than outer space, so they continue to radiate energy Thus, they cool off Can we make ice in the desert without a refrigerator?

  19. Newton’s Law of Cooling Rate of cooling of an object is proportional to the temperature difference between an object and its surroundings Works both ways, cooling and heating Rate of heating also depends on the temperature difference

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